有機性汚濁.PDF

Size: px
Start display at page:

Download "有機性汚濁.PDF"

Transcription

1 .. :Self Purification etc uvw t. w v u t u t..

2 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

3 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

4 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

5 .. :Self Purification etc uvw t. w v u t u t..

6 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

7 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

8 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

9 .. :Self Purification etc uvw t. w v u t u t..

10 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

11 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

12 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

13 .. :Self Purification etc uvw t. w v u t u t..

14 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

15 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

16 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

17 .. :Self Purification etc uvw t. w v u t u t..

18 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

19 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

20 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

21 .. :Self Purification etc uvw t. w v u t u t..

22 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

23 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

24 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

25 .. :Self Purification etc uvw t. w v u t u t..

26 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

27 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

28 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

29 .. :Self Purification etc uvw t. w v u t u t..

30 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

31 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

32 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

33 .. :Self Purification etc uvw t. w v u t u t..

34 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

35 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

36 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

37 .. :Self Purification etc uvw t. w v u t u t..

38 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

39 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

40 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

41 .. :Self Purification etc uvw t. w v u t u t..

42 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

43 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

44 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

45 .. :Self Purification etc uvw t. w v u t u t..

46 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

47 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

48 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

49 .. :Self Purification etc uvw t. w v u t u t..

50 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

51 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

52 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

53 .. :Self Purification etc uvw t. w v u t u t..

54 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

55 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

56 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

57 .. :Self Purification etc uvw t. w v u t u t..

58 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

59 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

60 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

61 .. :Self Purification etc uvw t. w v u t u t..

62 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

63 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

64 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

65 .. :Self Purification etc uvw t. w v u t u t..

66 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

67 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

68 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

69 .. :Self Purification etc uvw t. w v u t u t..

70 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

71 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

72 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

73 .. :Self Purification etc uvw t. w v u t u t..

74 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

75 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

76 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

77 .. :Self Purification etc uvw t. w v u t u t..

78 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

79 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

80 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

81 .. :Self Purification etc uvw t. w v u t u t..

82 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

83 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

84 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

85 .. :Self Purification etc uvw t. w v u t u t..

86 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

87 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

88 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

89 .. :Self Purification etc uvw t. w v u t u t..

90 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

91 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

92 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

93 .. :Self Purification etc uvw t. w v u t u t..

94 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

95 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

96 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

97 .. :Self Purification etc uvw t. w v u t u t..

98 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

99 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

100 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

101 .. :Self Purification etc uvw t. w v u t u t..

102 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

103 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

104 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

105 .. :Self Purification etc uvw t. w v u t u t..

106 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

107 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

108 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

109 .. :Self Purification etc uvw t. w v u t u t..

110 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

111 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

112 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

113 .. :Self Purification etc uvw t. w v u t u t..

114 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

115 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

116 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

117 .. :Self Purification etc uvw t. w v u t u t..

118 M. Re-aeration [mg/l]* [mg/l] * O onner obbins H.5m H.5m m U H S [] m [m /sec].5.7 3StreeterPhelps BO BO. / ep t ut t t M π d d 5 / / / 5. H S m 3/ / 8.6 H U m m θ L dl

119 LBO [mg/l] [/t] BO L * t d d. d L... dl L.3 d L StreeterPhelps t LLoo t L Le L. t t t e e e d t t L L e ln L..5 θ.6.5 f Fair f Fair 3

120 Streeter-Phelps BO O BO O O BO BO mg/lo 8mg/l 5 5 /3.3da - da - 9**u / /H 3/ H u m/sec.76 - m /da Manning [] [mg/l] [] [] [mg/l] [mg/l]

EP7000取扱説明書

EP7000取扱説明書 EP7000 S0109-3012 3 47 811 1213 1419 2021 53 54 5560 61 6263 66 2223 2427 2830 3133 3436 3740 4142 4344 45 46 4750 5152 2 4 5 6 7 1 3 4 5 6 7 8 9 15 16 17 18 13 EP7000 2 10 11 12 13 14 19 20 21 22 23 24

More information

01

01 2 0 0 7 0 3 2 2 i n d e x 0 7. 0 2. 0 3. 0 4. 0 8. 0 9. 1 0. 1 1. 0 5. 1 2. 1 3. 1 4. 1 5. 1 6. 1 7. 1 8. 1 9. 2 0. 2 1. 2 3. 2 4. 2 5. 2 6. O k h o t s k H a m a n a s u B e e f 0 2 http://clione-beef.n43.jp

More information

人芯経営論 ・・・リーダーシップ考②

人芯経営論 ・・・リーダーシップ考② 2009/12/15 2009/11/17 2009/11/16 2009/10/19 2009/10/15 2009/10/1 2009/9/17 2009/9/1 2009/8/17 2009/8/17 2009/8/14 2009/8/12 2009/7/28 2009/7/17 2009/7/15 2009/6/24 2009/6/18 2009/6/15 2009/5/20 2009/5/15

More information

3 m/sec 8.35 39.06 3.22 2.15 13.72 52.78 15.00 2.12 2.69 12.62 27.62 3 m/ 772 79 68 263 410 1,182 3 m/sec 3.87 0.63 8.00 3.12 1.38 12.50 12.50 2.00 2.50 1.00 5.50 5.50 m/ 105 122 20 247 247 3 m/sec 0.23

More information

untitled

untitled 19 m 3 m 3 m 3 /s m 3 3 m 3 m 3 m 3 m 3 m 3 m 3 m 3 2km 2km 4km 3km 2km 2km 16km () 2km 2km 4km 4km 2km 2km 16km m 3 m 3 m 3 264,970 m 3 1,209.6 m 3 36,850 m 3 1,728 m 3 m 3 m 3 m 3 m 3 m 3 m 3 m

More information

untitled

untitled 16 4 122.2 2 8 754km 2 2) 67.636km 6) 4) 1,0001,300m 10) 7) 8) 9) 11) 38) 5) 13 12 1,700 20) 15 1,200 2,000 1 80 40 46) 47) AA BOD75% 42,43 1mg/l A BOD75% 2mg/l 2 30 25 3 12) 75% 25% 60 3 25 7 26 30

More information

64 3 g=9.85 m/s 2 g=9.791 m/s 2 36, km ( ) 1 () 2 () m/s : : a) b) kg/m kg/m k

64 3 g=9.85 m/s 2 g=9.791 m/s 2 36, km ( ) 1 () 2 () m/s : : a) b) kg/m kg/m k 63 3 Section 3.1 g 3.1 3.1: : 64 3 g=9.85 m/s 2 g=9.791 m/s 2 36, km ( ) 1 () 2 () 3 9.8 m/s 2 3.2 3.2: : a) b) 5 15 4 1 1. 1 3 14. 1 3 kg/m 3 2 3.3 1 3 5.8 1 3 kg/m 3 3 2.65 1 3 kg/m 3 4 6 m 3.1. 65 5

More information

25 ... 1... 1... 9... 9... 17... 21... 22... 22... 22... 22... 23... 25... 26... 27... 27... 27... 61... 61... 61... 64... 64... 64... 65... 65... 65... 66... 66... 67... 70 1.1.1 1.1.2 1.1.3 1.1.4 1.1.5

More information

16 5 14 12 1 15 3 6 16 5 2 3 16 3 1 11 1.1 11 1.2 12 2 21 2.1 21 2.2 26 2.3 211 2.4 226 3 31 3.1 31 3.1.1 33 3.1.2 39 3.2 311 3.3 313 3.4 315 4 41 4.1 41 4.2 42 4.3 43 4.3.1 44 4.3.2 434 4.3.3 440 4.3.4

More information

橡HP用.PDF

橡HP用.PDF 1 2 3 ... 1... 2... 2... 3... 4... 12...12...12... 14...14...15...16... 17...17... 17...18...18...20...22... 26... 26 ... 27...27...28 32 1 2 3 8 9 O 1 2 7 C ln 6 O 4 3 C ln m + n = 8 8 9 1 2 7 3 C ln

More information

untitled

untitled - k k k = y. k = ky. y du dx = ε ux ( ) ux ( ) = ax+ b x u() = ; u( ) = AE u() = b= u () = a= ; a= d x du ε x = = = dx dx N = σ da = E ε da = EA ε A x A x x - σ x σ x = Eε x N = EAε x = EA = N = EA k =

More information

Gmech08.dvi

Gmech08.dvi 51 5 5.1 5.1.1 P r P z θ P P P z e r e, z ) r, θ, ) 5.1 z r e θ,, z r, θ, = r sin θ cos = r sin θ sin 5.1) e θ e z = r cos θ r, θ, 5.1: 0 r

More information

untitled

untitled 2 3-22 23-24 25-1 - - 2 - 2-3 - 1848 1901 1936 3 1960 2005 10 27.8 1-4 - 2 5 A 3000 4-5 - 4 20 120 160 70 10-6 - 12 40 6070 80 20 20 7 5 9 15 130 I U 8 4 2 3-7 - 4 1,600 500 200 48 100 80-8 - - 9 - 1 12

More information

( ) ( ) 20 11 11-13 15 20 21 ( ) 114cm 100cm 85cm () () 11 18 19 19-25 26 ( 1 ) 1 2 10 ( ) () 11 16 19 21 24-13 20 3 20 ( ) ( ) 14 15 19 20 23 29 13 20 4/15 600 400 5 7 1 8 5 7 20 3 1999 1000 100 86

More information

122

122 121 122 123 1 124 2 3 125 4 5 126 7 127 8 9 128 17301 10 1. 2. 3. 4. 5. 11 129 12 13 130 211822 14 15 131 16 17 132 5 19 133 20 21 134 22 23 135 24 25 136 26 137 1. 2. 3. 4. 5. 5 28 1. 5 2. 3. 3 29 138

More information

PR

PR 1-4 29 1-13 41 1-23 43 1-39 29 PR 1-42 28 1-46 52 1-49 47 1-51 40 1-64 52 1-66 58 1-72 28 1-74 48 1-81 29 1-93 27 1-95 30 1-97 39 1-98 40 1-100 34 2-1 41 2-5 47 2-105 38 2-108 44 2-110 55 2-111 44 2-114

More information

untitled

untitled 1 2 1 1 2 3 1 2 1 2 4 0,76 4 5 0,1 1970 1974 1993 6 7 8 9 4 1920 10 1960 1971 ( ) IC 11 1980 1990 1992 1987 0,269 1996 0,023 2001 2002 1996 1996 1 98 27 70 1 3 7 12 2003 63 2 13 3 5 1 13 5 14 2 14 2 14

More information

東京大学学内広報No.1409

東京大学学内広報No.1409 for communication across the UT 2011.2.22 No.1409 2 No.1409 2011. 2. 22 No.1409 2011. 2. 22 3 4 No.1409 2011. 2. 22 No.1409 2011. 2. 22 5 6 No.1409 2011. 2. 22 No.1409 2011. 2. 22 7 8 No.1409 2011. 2.

More information

東京大学学内広報No.1401

東京大学学内広報No.1401 for communication across the UT 2010.7.26 No.1401 2 No.1401 2010. 7. 26 No.1401 2010. 7. 26 3 4 No.1401 2010. 7. 26 No.1401 2010. 7. 26 5 6 No.1401 2010. 7. 26 No.1401 2010. 7. 26 7 8 No.1401 2010. 7.

More information

a, b a bc c b a a b a a a a p > p p p 2, 3, 5, 7,, 3, 7, 9, 23, 29, 3, a > p a p [ ] a bp, b p p cq, c, q, < q < p a bp bcq q a <

a, b a bc c b a a b a a a a p > p p p 2, 3, 5, 7,, 3, 7, 9, 23, 29, 3, a > p a p [ ] a bp, b p p cq, c, q, < q < p a bp bcq q a < 22 9 8 5 22 9 29 0 2 2 5 2.............................. 5 2.2.................................. 6 2.3.............................. 8 3 8 4 9 4............................. 9 4.2 S(, a)..............................

More information

橡scb79h16y08.PDF

橡scb79h16y08.PDF S C B 05 06 04 10 29 05 1990 05 0.1 90 05 0.2 06 90 05 06 06 04 04 10 1.9 90 12 2.0 13 10 10 18.0 16.0 6.1 1 10 1.7 10 18.5 0.8 03 04 1 04 42.9 10 20.5 10 4.2 0.7 0.2 0.6 01 00 100 97 11 102.5 04 91.5

More information

6 2 2 x y x y t P P = P t P = I P P P ( ) ( ) ,, ( ) ( ) cos θ sin θ cos θ sin θ, sin θ cos θ sin θ cos θ y x θ x θ P

6 2 2 x y x y t P P = P t P = I P P P ( ) ( ) ,, ( ) ( ) cos θ sin θ cos θ sin θ, sin θ cos θ sin θ cos θ y x θ x θ P 6 x x 6.1 t P P = P t P = I P P P 1 0 1 0,, 0 1 0 1 cos θ sin θ cos θ sin θ, sin θ cos θ sin θ cos θ x θ x θ P x P x, P ) = t P x)p ) = t x t P P ) = t x = x, ) 6.1) x = Figure 6.1 Px = x, P=, θ = θ P

More information

r d 2r d l d (a) (b) (c) 1: I(x,t) I(x+ x,t) I(0,t) I(l,t) V in V(x,t) V(x+ x,t) V(0,t) l V(l,t) 2: 0 x x+ x 3: V in 3 V in x V (x, t) I(x, t

r d 2r d l d (a) (b) (c) 1: I(x,t) I(x+ x,t) I(0,t) I(l,t) V in V(x,t) V(x+ x,t) V(0,t) l V(l,t) 2: 0 x x+ x 3: V in 3 V in x V (x, t) I(x, t 1 1 2 2 2r d 2r d l d (a) (b) (c) 1: I(x,t) I(x+ x,t) I(0,t) I(l,t) V in V(x,t) V(x+ x,t) V(0,t) l V(l,t) 2: 0 x x+ x 3: V in 3 V in x V (x, t) I(x, t) V (x, t) I(x, t) V in x t 3 4 1 L R 2 C G L 0 R 0

More information

2. 2 P M A 2 F = mmg AP AP 2 AP (G > : ) AP/ AP A P P j M j F = n j=1 mm j G AP j AP j 2 AP j 3 P ψ(p) j ψ(p j ) j (P j j ) A F = n j=1 mgψ(p j ) j AP

2. 2 P M A 2 F = mmg AP AP 2 AP (G > : ) AP/ AP A P P j M j F = n j=1 mm j G AP j AP j 2 AP j 3 P ψ(p) j ψ(p j ) j (P j j ) A F = n j=1 mgψ(p j ) j AP 1. 1 213 1 6 1 3 1: ( ) 2: 3: SF 1 2 3 1: 3 2 A m 2. 2 P M A 2 F = mmg AP AP 2 AP (G > : ) AP/ AP A P P j M j F = n j=1 mm j G AP j AP j 2 AP j 3 P ψ(p) j ψ(p j ) j (P j j ) A F = n j=1 mgψ(p j ) j AP

More information

V(x) m e V 0 cos x π x π V(x) = x < π, x > π V 0 (i) x = 0 (V(x) V 0 (1 x 2 /2)) n n d 2 f dξ 2ξ d f 2 dξ + 2n f = 0 H n (ξ) (ii) H

V(x) m e V 0 cos x π x π V(x) = x < π, x > π V 0 (i) x = 0 (V(x) V 0 (1 x 2 /2)) n n d 2 f dξ 2ξ d f 2 dξ + 2n f = 0 H n (ξ) (ii) H 199 1 1 199 1 1. Vx) m e V cos x π x π Vx) = x < π, x > π V i) x = Vx) V 1 x /)) n n d f dξ ξ d f dξ + n f = H n ξ) ii) H n ξ) = 1) n expξ ) dn dξ n exp ξ )) H n ξ)h m ξ) exp ξ )dξ = π n n!δ n,m x = Vx)

More information

4 4 4 a b c d a b A c d A a da ad bce O E O n A n O ad bc a d n A n O 5 {a n } S n a k n a n + k S n a a n+ S n n S n n log x x {xy } x, y x + y 7 fx

4 4 4 a b c d a b A c d A a da ad bce O E O n A n O ad bc a d n A n O 5 {a n } S n a k n a n + k S n a a n+ S n n S n n log x x {xy } x, y x + y 7 fx 4 4 5 4 I II III A B C, 5 7 I II A B,, 8, 9 I II A B O A,, Bb, b, Cc, c, c b c b b c c c OA BC P BC OP BC P AP BC n f n x xn e x! e n! n f n x f n x f n x f k x k 4 e > f n x dx k k! fx sin x cos x tan

More information

lim lim lim lim 0 0 d lim 5. d 0 d d d d d d 0 0 lim lim 0 d

lim lim lim lim 0 0 d lim 5. d 0 d d d d d d 0 0 lim lim 0 d lim 5. 0 A B 5-5- A B lim 0 A B A 5. 5- 0 5-5- 0 0 lim lim 0 0 0 lim lim 0 0 d lim 5. d 0 d d d d d d 0 0 lim lim 0 d 0 0 5- 5-3 0 5-3 5-3b 5-3c lim lim d 0 0 5-3b 5-3c lim lim lim d 0 0 0 3 3 3 3 3 3

More information

ºfi ±ó§è„Jumpœ ±Ÿ

ºfi  ±ó§è„Jumpœ  ±Ÿ SPORTS-VIDEO 10 30m 30m 30m 100m 40m 30m 150m 60m 400m 80m 600m 30m 800m 100m 1500m 150m 3000m 300m 5000m 600m 100m 6 30m 12 75% 6 1870% 19 MAXMN M 0.025 10 11 12 13 14 40m 6.5-6.4 6.3-6.2 6.0-5.8 5.6-5.5

More information

Gmech08.dvi

Gmech08.dvi 145 13 13.1 13.1.1 0 m mg S 13.1 F 13.1 F /m S F F 13.1 F mg S F F mg 13.1: m d2 r 2 = F + F = 0 (13.1) 146 13 F = F (13.2) S S S S S P r S P r r = r 0 + r (13.3) r 0 S S m d2 r 2 = F (13.4) (13.3) d 2

More information

A = A x x + A y y + A, B = B x x + B y y + B, C = C x x + C y y + C..6 x y A B C = A x x + A y y + A B x B y B C x C y C { B = A x x + A y y + A y B B

A = A x x + A y y + A, B = B x x + B y y + B, C = C x x + C y y + C..6 x y A B C = A x x + A y y + A B x B y B C x C y C { B = A x x + A y y + A y B B 9 7 A = A x x + A y y + A, B = B x x + B y y + B, C = C x x + C y y + C..6 x y A B C = A x x + A y y + A B x B y B C x C y C { B = A x x + A y y + A y B B x x B } B C y C y + x B y C x C C x C y B = A

More information

第3章 焼却灰溶融システムの現状、焼却灰溶融スラグのリサイクルの動向・問題点

第3章  焼却灰溶融システムの現状、焼却灰溶融スラグのリサイクルの動向・問題点 18 5 23 450 100~150 1300 1998 10 25 1 1 27 1819 60 3 300t 28.8t 2 62 118t16 12.3 16h 24 3 4 120t 9.6t24h 3 4 100t24h 15t24h 3 4 600t24h 500t24h 5 2 300t24h 75t24h 6 8 80 24h 9.6 24h 4 300t24h 52 24 11

More information

 

  190 87 28 1 212 77 1777 77 219 1 171 28 201 1 1 16 102 17 10 1 16 99 1 1 1 1 960 1 1 1 1 1 2 168 1 12 2 18 100 2 1 6 1 61 7 16 18 20 2 961 2 11 6 2 6 6 0 17 86 1 2 16 1 1 9 2 1 1 1 1 1 1 0 2 17 16 6 1

More information

p = mv p x > h/4π λ = h p m v Ψ 2 Ψ

p = mv p x > h/4π λ = h p m v Ψ 2 Ψ II p = mv p x > h/4π λ = h p m v Ψ 2 Ψ Ψ Ψ 2 0 x P'(x) m d 2 x = mω 2 x = kx = F(x) dt 2 x = cos(ωt + φ) mω 2 = k ω = m k v = dx = -ωsin(ωt + φ) dt = d 2 x dt 2 0 y v θ P(x,y) θ = ωt + φ ν = ω [Hz] 2π

More information

LLG-R8.Nisus.pdf

LLG-R8.Nisus.pdf d M d t = γ M H + α M d M d t M γ [ 1/ ( Oe sec) ] α γ γ = gµ B h g g µ B h / π γ g = γ = 1.76 10 [ 7 1/ ( Oe sec) ] α α = λ γ λ λ λ α γ α α H α = γ H ω ω H α α H K K H K / M 1 1 > 0 α 1 M > 0 γ α γ =

More information

Microsoft Word - .....J.^...O.|Word.i10...j.doc

Microsoft Word - .....J.^...O.|Word.i10...j.doc P 1. 2. R H C H, etc. R' n R' R C R'' R R H R R' R C C R R C R' R C R' R C C R 1-1 1-2 3. 1-3 1-4 4. 5. 1-5 5. 1-6 6. 10 1-7 7. 1-8 8. 2-1 2-2 2-3 9. 2-4 2-5 2-6 2-7 10. 2-8 10. 2-9 10. 2-10 10. 11. C

More information

3/4/8:9 { } { } β β β α β α β β

3/4/8:9 { } { } β β β α β α β β α β : α β β α β α, [ ] [ ] V, [ ] α α β [ ] β 3/4/8:9 3/4/8:9 { } { } β β β α β α β β [] β [] β β β β α ( ( ( ( ( ( [ ] [ ] [ β ] [ α β β ] [ α ( β β ] [ α] [ ( β β ] [] α [ β β ] ( / α α [ β β ] [ ] 3

More information

2

2 from One 1 2 24 2 3 4 30 4 5 47 13 6 7 34 2 13 8 34.................................. 9 15-1-5 15-1-4 10 11 12 12 13 14 15 A ( 1) A A 2 B B 16 2 2 17 3 C C 18 3 19 ( ) 15 2 5 ( 56 2 16 20 2 5 ) (1) (2)

More information

<5461726F2D3137944E8AEE967B95FB906A8DC58F492E6A7464>

<5461726F2D3137944E8AEE967B95FB906A8DC58F492E6A7464> 187 188 189 30 4 1 60 190 17 191 18 5 15 192 etc. 193 195 196 ( ) HP 197 198 199 200 201 202 203 , 1 -- NPO 204 205 43 11 40 207 m 208 m 209 4 210 211 213 214 215 216 217 218 219 220 1 221 233

More information

untitled

untitled . x2.0 0.5 0 0.5.0 x 2 t= 0: : x α ij β j O x2 u I = α x j ij i i= 0 y j = + exp( u ) j v J = β y j= 0 j j o = + exp( v ) 0 0 e x p e x p J j I j ij i i o x β α = = = + +.. 2 3 8 x 75 58 28 36 x2 3 3 4

More information

Gmech08.dvi

Gmech08.dvi 63 6 6.1 6.1.1 v = v 0 =v 0x,v 0y, 0) t =0 x 0,y 0, 0) t x x 0 + v 0x t v x v 0x = y = y 0 + v 0y t, v = v y = v 0y 6.1) z 0 0 v z yv z zv y zv x xv z xv y yv x = 0 0 x 0 v 0y y 0 v 0x 6.) 6.) 6.1) 6.)

More information

B

B B YES NO 5 7 6 1 4 3 2 BB BB BB AA AA BB 510J B B A 510J B A A A A A A 510J B A 510J B A A A A A 510J M = σ Z Z = M σ AAA π T T = a ZP ZP = a AAA π B M + M 2 +T 2 M T Me = = 1 + 1 + 2 2 M σ Te = M 2 +T

More information

#A A A F, F d F P + F P = d P F, F y P F F x A.1 ( α, 0), (α, 0) α > 0) (x, y) (x + α) 2 + y 2, (x α) 2 + y 2 d (x + α)2 + y 2 + (x α) 2 + y 2 =

#A A A F, F d F P + F P = d P F, F y P F F x A.1 ( α, 0), (α, 0) α > 0) (x, y) (x + α) 2 + y 2, (x α) 2 + y 2 d (x + α)2 + y 2 + (x α) 2 + y 2 = #A A A. F, F d F P + F P = d P F, F P F F A. α, 0, α, 0 α > 0, + α +, α + d + α + + α + = d d F, F 0 < α < d + α + = d α + + α + = d d α + + α + d α + = d 4 4d α + = d 4 8d + 6 http://mth.cs.kitmi-it.c.jp/

More information

2 log 3 9 log 0 0 a log 9 3 2 log 3 9 y 3 y = 9 3 2 = 9 y = 2 0 y = 0 a log 0 0 a = a 9 2 = 3 log 9 3 = 2 a 0 = a = a log a a = log a = 0 log a a =. l

2 log 3 9 log 0 0 a log 9 3 2 log 3 9 y 3 y = 9 3 2 = 9 y = 2 0 y = 0 a log 0 0 a = a 9 2 = 3 log 9 3 = 2 a 0 = a = a log a a = log a = 0 log a a =. l 202 7 8 logarithm a y = y a y log a a log a y = log a = ep a y a > 0, a > 0 log 5 25 log 5 25 y y = log 5 25 25 = 5 y 25 25 = 5 3 y = 3 log 5 25 = 3 2 log 3 9 log 0 0 a log 9 3 2 log 3 9 y 3 y = 9 3 2

More information

AC Modeling and Control of AC Motors Seiji Kondo, Member 1. q q (1) PM (a) N d q Dept. of E&E, Nagaoka Unive

AC Modeling and Control of AC Motors Seiji Kondo, Member 1. q q (1) PM (a) N d q Dept. of E&E, Nagaoka Unive AC Moeling an Control of AC Motors Seiji Kono, Member 1. (1) PM 33 54 64. 1 11 1(a) N 94 188 163 1 Dept. of E&E, Nagaoka University of Technology 163 1, Kamitomioka-cho, Nagaoka, Niigata 94 188 (a) 巻数

More information

m dv = mg + kv2 dt m dv dt = mg k v v m dv dt = mg + kv2 α = mg k v = α 1 e rt 1 + e rt m dv dt = mg + kv2 dv mg + kv 2 = dt m dv α 2 + v 2 = k m dt d

m dv = mg + kv2 dt m dv dt = mg k v v m dv dt = mg + kv2 α = mg k v = α 1 e rt 1 + e rt m dv dt = mg + kv2 dv mg + kv 2 = dt m dv α 2 + v 2 = k m dt d m v = mg + kv m v = mg k v v m v = mg + kv α = mg k v = α e rt + e rt m v = mg + kv v mg + kv = m v α + v = k m v (v α (v + α = k m ˆ ( v α ˆ αk v = m v + α ln v α v + α = αk m t + C v α v + α = e αk m

More information

P. P. P.

P. P. P. /564-0052 15-29 TEL.06-6386-8141( ) FAX.06-6386-8140 /101-0026 67 TEL.03-5835-3311( ) FAX.03-5835-3316 /464-0075 3-10-17 TEL.052-731-5751( ) FAX.052-731-5780 /802-0001 2-14-1 TEL.093-521-9830() FAX.093-521-9834

More information

スライド タイトルなし

スライド タイトルなし (LNA) (LNA) (PA) ASK FSK PSK BER Bit Error Rate/ratio QPSK GMSK QAM OFDM ASK FSK PSK ASK(Amplitude-shift keying) e( t) = S( t)cos( ω t + θ ) c AM S(t) [+1,0] [+1/2, 1/2] 1 1 2 S(t) 0 1 2 e(t) C O B A E

More information

29

29 9 .,,, 3 () C k k C k C + C + C + + C 8 + C 9 + C k C + C + C + C 3 + C 4 + C 5 + + 45 + + + 5 + + 9 + 4 + 4 + 5 4 C k k k ( + ) 4 C k k ( k) 3 n( ) n n n ( ) n ( ) n 3 ( ) 3 3 3 n 4 ( ) 4 4 4 ( ) n n

More information

01 02 03 26 Agribusiness Creation Fair 2015 08 06 04 07 08 2014 2015 27 05 08 09 10 11 12 28 Agribusiness Creation Fair 2015 13 14 16 18 17 19 2014 2015 29 15 20 21 22 23 24 25 30 Agribusiness Creation

More information

2

2 1 6 11 17 33 40 46 50 56 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 etc, 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 Agricultural Society 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53

More information

t = h x z z = h z = t (x, z) (v x (x, z, t), v z (x, z, t)) ρ v x x + v z z = 0 (1) 2-2. (v x, v z ) φ(x, z, t) v x = φ x, v z

t = h x z z = h z = t (x, z) (v x (x, z, t), v z (x, z, t)) ρ v x x + v z z = 0 (1) 2-2. (v x, v z ) φ(x, z, t) v x = φ x, v z I 1 m 2 l k 2 x = 0 x 1 x 1 2 x 2 g x x 2 x 1 m k m 1-1. L x 1, x 2, ẋ 1, ẋ 2 ẋ 1 x = 0 1-2. 2 Q = x 1 + x 2 2 q = x 2 x 1 l L Q, q, Q, q M = 2m µ = m 2 1-3. Q q 1-4. 2 x 2 = h 1 x 1 t = 0 2 1 t x 1 (t)

More information

DE-resume

DE-resume - 2011, http://c-faculty.chuo-u.ac.jp/ nishioka/ 2 11 21131 : 4 1 x y(x, y (x,y (x,,y (n, (1.1 F (x, y, y,y,,y (n =0. (1.1 n. (1.1 y(x. y(x (1.1. 1 1 1 1.1... 2 1.2... 9 1.3 1... 26 2 2 34 2.1,... 35 2.2

More information

知能科学:ニューラルネットワーク

知能科学:ニューラルネットワーク 2 3 4 (Neural Network) (Deep Learning) (Deep Learning) ( x x = ax + b x x x ? x x x w σ b = σ(wx + b) x w b w b .2.8.6 σ(x) = + e x.4.2 -.2 - -5 5 x w x2 w2 σ x3 w3 b = σ(w x + w 2 x 2 + w 3 x 3 + b) x,

More information

知能科学:ニューラルネットワーク

知能科学:ニューラルネットワーク 2 3 4 (Neural Network) (Deep Learning) (Deep Learning) ( x x = ax + b x x x ? x x x w σ b = σ(wx + b) x w b w b .2.8.6 σ(x) = + e x.4.2 -.2 - -5 5 x w x2 w2 σ x3 w3 b = σ(w x + w 2 x 2 + w 3 x 3 + b) x,

More information

1 3 1.1.......................... 3 1............................... 3 1.3....................... 5 1.4.......................... 6 1.5........................ 7 8.1......................... 8..............................

More information

Untitled

Untitled http://www.ike-dyn.ritsumei.ac.jp/ hyoo/dynamics.html 1 (i) (ii) 2 (i) (ii) (*) [1] 2 1 3 1.1................................ 3 1.2..................................... 3 2 4 2.1....................................

More information

1 ETC - 1 -

1 ETC - 1 - ******** ******** - 0 - 1 ETC - 1 - ( ) ( ) ( )( )31 ( ) ( ) - 2 - - 3 - MENU MENU Enter - 4 - 1 4 A 1 C D E J K L M - 5 - A C 1 ( ) ( ) - 6 - 1 3 A 1 C D E J K L M 1 ( ) ( ) - 7 - 1 1 1 1 1 2 1 1 2 2

More information

A (1) = 4 A( 1, 4) 1 A 4 () = tan A(0, 0) π A π

A (1) = 4 A( 1, 4) 1 A 4 () = tan A(0, 0) π A π 4 4.1 4.1.1 A = f() = f() = a f (a) = f() (a, f(a)) = f() (a, f(a)) f(a) = f 0 (a)( a) 4.1 (4, ) = f() = f () = 1 = f (4) = 1 4 4 (4, ) = 1 ( 4) 4 = 1 4 + 1 17 18 4 4.1 A (1) = 4 A( 1, 4) 1 A 4 () = tan

More information

1. (8) (1) (x + y) + (x + y) = 0 () (x + y ) 5xy = 0 (3) (x y + 3y 3 ) (x 3 + xy ) = 0 (4) x tan y x y + x = 0 (5) x = y + x + y (6) = x + y 1 x y 3 (

1. (8) (1) (x + y) + (x + y) = 0 () (x + y ) 5xy = 0 (3) (x y + 3y 3 ) (x 3 + xy ) = 0 (4) x tan y x y + x = 0 (5) x = y + x + y (6) = x + y 1 x y 3 ( 1 1.1 (1) (1 + x) + (1 + y) = 0 () x + y = 0 (3) xy = x (4) x(y + 3) + y(y + 3) = 0 (5) (a + y ) = x ax a (6) x y 1 + y x 1 = 0 (7) cos x + sin x cos y = 0 (8) = tan y tan x (9) = (y 1) tan x (10) (1 +

More information

1 (1) () (3) I 0 3 I I d θ = L () dt θ L L θ I d θ = L = κθ (3) dt κ T I T = π κ (4) T I κ κ κ L l a θ L r δr δl L θ ϕ ϕ = rθ (5) l

1 (1) () (3) I 0 3 I I d θ = L () dt θ L L θ I d θ = L = κθ (3) dt κ T I T = π κ (4) T I κ κ κ L l a θ L r δr δl L θ ϕ ϕ = rθ (5) l 1 1 ϕ ϕ ϕ S F F = ϕ (1) S 1: F 1 1 (1) () (3) I 0 3 I I d θ = L () dt θ L L θ I d θ = L = κθ (3) dt κ T I T = π κ (4) T I κ κ κ L l a θ L r δr δl L θ ϕ ϕ = rθ (5) l : l r δr θ πrδr δf (1) (5) δf = ϕ πrδr

More information

Korteweg-de Vries

Korteweg-de Vries Korteweg-de Vries 2011 03 29 ,.,.,.,, Korteweg-de Vries,. 1 1 3 1.1 K-dV........................ 3 1.2.............................. 4 2 K-dV 5 2.1............................. 5 2.2..............................

More information

120 9 I I 1 I 2 I 1 I 2 ( a) ( b) ( c ) I I 2 I 1 I ( d) ( e) ( f ) 9.1: Ampère (c) (d) (e) S I 1 I 2 B ds = µ 0 ( I 1 I 2 ) I 1 I 2 B ds =0. I 1 I 2

120 9 I I 1 I 2 I 1 I 2 ( a) ( b) ( c ) I I 2 I 1 I ( d) ( e) ( f ) 9.1: Ampère (c) (d) (e) S I 1 I 2 B ds = µ 0 ( I 1 I 2 ) I 1 I 2 B ds =0. I 1 I 2 9 E B 9.1 9.1.1 Ampère Ampère Ampère s law B S µ 0 B ds = µ 0 j ds (9.1) S rot B = µ 0 j (9.2) S Ampère Biot-Savart oulomb Gauss Ampère rot B 0 Ampère µ 0 9.1 (a) (b) I B ds = µ 0 I. I 1 I 2 B ds = µ 0

More information

35

35 D: 0.BUN 7 8 4 B5 6 36 6....................................... 36 6.................................... 37 6.3................................... 38 6.3....................................... 38 6.4..........................................

More information

( ) 2002 1 1 1 1.1....................................... 1 1.1.1................................. 1 1.1.2................................. 1 1.1.3................... 3 1.1.4......................................

More information

1 (Berry,1975) 2-6 p (S πr 2 )p πr 2 p 2πRγ p p = 2γ R (2.5).1-1 : : : : ( ).2 α, β α, β () X S = X X α X β (.1) 1 2

1 (Berry,1975) 2-6 p (S πr 2 )p πr 2 p 2πRγ p p = 2γ R (2.5).1-1 : : : : ( ).2 α, β α, β () X S = X X α X β (.1) 1 2 2005 9/8-11 2 2.2 ( 2-5) γ ( ) γ cos θ 2πr πρhr 2 g h = 2γ cos θ ρgr (2.1) γ = ρgrh (2.2) 2 cos θ θ cos θ = 1 (2.2) γ = 1 ρgrh (2.) 2 2. p p ρgh p ( ) p p = p ρgh (2.) h p p = 2γ r 1 1 (Berry,1975) 2-6

More information

[ ] 0.1 lim x 0 e 3x 1 x IC ( 11) ( s114901) 0.2 (1) y = e 2x (x 2 + 1) (2) y = x/(x 2 + 1) 0.3 dx (1) 1 4x 2 (2) e x sin 2xdx (3) sin 2 xdx ( 11) ( s

[ ] 0.1 lim x 0 e 3x 1 x IC ( 11) ( s114901) 0.2 (1) y = e 2x (x 2 + 1) (2) y = x/(x 2 + 1) 0.3 dx (1) 1 4x 2 (2) e x sin 2xdx (3) sin 2 xdx ( 11) ( s [ ]. lim e 3 IC ) s49). y = e + ) ) y = / + ).3 d 4 ) e sin d 3) sin d ) s49) s493).4 z = y z z y s494).5 + y = 4 =.6 s495) dy = 3e ) d dy d = y s496).7 lim ) lim e s49).8 y = e sin ) y = sin e 3) y =

More information

x E E E e i ω = t + ikx 0 k λ λ 2π k 2π/λ k ω/v v n v c/n k = nω c c ω/2π λ k 2πn/λ 2π/(λ/n) κ n n κ N n iκ k = Nω c iωt + inωx c iωt + i( n+ iκ ) ωx

x E E E e i ω = t + ikx 0 k λ λ 2π k 2π/λ k ω/v v n v c/n k = nω c c ω/2π λ k 2πn/λ 2π/(λ/n) κ n n κ N n iκ k = Nω c iωt + inωx c iωt + i( n+ iκ ) ωx x E E E e i ω t + ikx k λ λ π k π/λ k ω/v v n v c/n k nω c c ω/π λ k πn/λ π/(λ/n) κ n n κ N n iκ k Nω c iωt + inωx c iωt + i( n+ iκ ) ωx c κω x c iω ( t nx c) E E e E e E e e κ e ωκx/c e iω(t nx/c) I I

More information

(1) 3 A B E e AE = e AB OE = OA + e AB = (1 35 e ) e OE z 1 1 e E xy e = 0 e = 5 OE = ( 2 0 0) E ( 2 0 0) (2) 3 E P Q k EQ = k EP E y 0

(1) 3 A B E e AE = e AB OE = OA + e AB = (1 35 e ) e OE z 1 1 e E xy e = 0 e = 5 OE = ( 2 0 0) E ( 2 0 0) (2) 3 E P Q k EQ = k EP E y 0 (1) 3 A B E e AE = e AB OE = OA + e AB = (1 35 e 0 1 15 ) e OE z 1 1 e E xy 5 1 1 5 e = 0 e = 5 OE = ( 2 0 0) E ( 2 0 0) (2) 3 E P Q k EQ = k EP E y 0 Q y P y k 2 M N M( 1 0 0) N(1 0 0) 4 P Q M N C EP

More information

NEXCO 0 0 JB,0,0,00,00,0,0,0 ETC 0

NEXCO  0 0 JB,0,0,00,00,0,0,0 ETC 0 NEXCO http://www.w-nexco.co.jp/drive_porter/driverally/ 0 0 () 0 JB,00,00,00,00,00,00,000 ETC 0 0 NEXCO http://www.w-nexco.co.jp/drive_porter/driverally/ 0 0 JB,0,0,00,00,0,0,0 ETC 0 NEXCO http://www.w-nexco.co.jp/drive_porter/driverally/

More information

ビジネスプリンタ消耗品カタログ_2019年5月版

ビジネスプリンタ消耗品カタログ_2019年5月版 2 INDEX MultiWriter A3 A3 A4 A4 A3 A4 p.4 p.7 p.8 p.9 p.10 p.13 MultiWriter el A4 A4 p.15 p.15 MultiCoder MultiCoder 503L3T D/502L3T D/500L3T D/500L6T MultiCoder 500M3M/500M3P p.16 p.17 MultiImpact MultiImpact

More information

025-052_後藤光男.indd

025-052_後藤光男.indd 14 2 2013 12 25 1 1 2 2 1 2 3 1 2 4 1 1966 1 2 2 1 2 2006 56 26 3 2013 2 2013 3 3 1 2 3 1960 10 12 65 56 86 130 3 3100 1979 7 4 2 3 2013 90 3 3 2013 162 4 57 9 22 1055 7 27 56 86 7 1 8 9 2 7 1 8 9 2 22

More information

() [REQ] 0m 0 m/s () [REQ] (3) [POS] 4.3(3) ()() () ) m/s 4. ) 4. AMEDAS

() [REQ] 0m 0 m/s () [REQ] (3) [POS] 4.3(3) ()() () ) m/s 4. ) 4. AMEDAS () [REQ] 4. 4. () [REQ] 0m 0 m/s () [REQ] (3) [POS] 4.3(3) ()() () 0 0 4. 5050 0 ) 00 4 30354045m/s 4. ) 4. AMEDAS ) 4. 0 3 ) 4. 0 4. 4 4.3(3) () [REQ] () [REQ] (3) [POS] () ()() 4.3 P = ρ d AnC DG ()

More information

50 2 I SI MKSA r q r q F F = 1 qq 4πε 0 r r 2 r r r r (2.2 ε 0 = 1 c 2 µ 0 c = m/s q 2.1 r q' F r = 0 µ 0 = 4π 10 7 N/A 2 k = 1/(4πε 0 qq

50 2 I SI MKSA r q r q F F = 1 qq 4πε 0 r r 2 r r r r (2.2 ε 0 = 1 c 2 µ 0 c = m/s q 2.1 r q' F r = 0 µ 0 = 4π 10 7 N/A 2 k = 1/(4πε 0 qq 49 2 I II 2.1 3 e e = 1.602 10 19 A s (2.1 50 2 I SI MKSA 2.1.1 r q r q F F = 1 qq 4πε 0 r r 2 r r r r (2.2 ε 0 = 1 c 2 µ 0 c = 3 10 8 m/s q 2.1 r q' F r = 0 µ 0 = 4π 10 7 N/A 2 k = 1/(4πε 0 qq F = k r

More information

e a b a b b a a a 1 a a 1 = a 1 a = e G G G : x ( x =, 8, 1 ) x 1,, 60 θ, ϕ ψ θ G G H H G x. n n 1 n 1 n σ = (σ 1, σ,..., σ N ) i σ i i n S n n = 1,,

e a b a b b a a a 1 a a 1 = a 1 a = e G G G : x ( x =, 8, 1 ) x 1,, 60 θ, ϕ ψ θ G G H H G x. n n 1 n 1 n σ = (σ 1, σ,..., σ N ) i σ i i n S n n = 1,, 01 10 18 ( ) 1 6 6 1 8 8 1 6 1 0 0 0 0 1 Table 1: 10 0 8 180 1 1 1. ( : 60 60 ) : 1. 1 e a b a b b a a a 1 a a 1 = a 1 a = e G G G : x ( x =, 8, 1 ) x 1,, 60 θ, ϕ ψ θ G G H H G x. n n 1 n 1 n σ = (σ 1,

More information

.5 z = a + b + c n.6 = a sin t y = b cos t dy d a e e b e + e c e e e + e 3 s36 3 a + y = a, b > b 3 s363.7 y = + 3 y = + 3 s364.8 cos a 3 s365.9 y =,

.5 z = a + b + c n.6 = a sin t y = b cos t dy d a e e b e + e c e e e + e 3 s36 3 a + y = a, b > b 3 s363.7 y = + 3 y = + 3 s364.8 cos a 3 s365.9 y =, [ ] IC. r, θ r, θ π, y y = 3 3 = r cos θ r sin θ D D = {, y ; y }, y D r, θ ep y yddy D D 9 s96. d y dt + 3dy + y = cos t dt t = y = e π + e π +. t = π y =.9 s6.3 d y d + dy d + y = y =, dy d = 3 a, b

More information

8 300 mm 2.50 m/s L/s ( ) 1.13 kg/m MPa 240 C 5.00mm 120 kpa ( ) kg/s c p = 1.02kJ/kgK, R = 287J/kgK kPa, 17.0 C 118 C 870m 3 R = 287J

8 300 mm 2.50 m/s L/s ( ) 1.13 kg/m MPa 240 C 5.00mm 120 kpa ( ) kg/s c p = 1.02kJ/kgK, R = 287J/kgK kPa, 17.0 C 118 C 870m 3 R = 287J 26 1 22 10 1 2 3 4 5 6 30.0 cm 1.59 kg 110kPa, 42.1 C, 18.0m/s 107kPa c p =1.02kJ/kgK 278J/kgK 30.0 C, 250kPa (c p = 1.02kJ/kgK, R = 287J/kgK) 18.0 C m/s 16.9 C 320kPa 270 m/s C c p = 1.02kJ/kgK, R = 292J/kgK

More information

n=1 1 n 2 = π = π f(z) f(z) 2 f(z) = u(z) + iv(z) *1 f (z) u(x, y), v(x, y) f(z) f (z) = f/ x u x = v y, u y = v x

n=1 1 n 2 = π = π f(z) f(z) 2 f(z) = u(z) + iv(z) *1 f (z) u(x, y), v(x, y) f(z) f (z) = f/ x u x = v y, u y = v x n= n 2 = π2 6 3 2 28 + 4 + 9 + = π2 6 2 f(z) f(z) 2 f(z) = u(z) + iv(z) * f (z) u(x, y), v(x, y) f(z) f (z) = f/ x u x = v y, u y = v x f x = i f y * u, v 3 3. 3 f(t) = u(t) + v(t) [, b] f(t)dt = u(t)dt

More information